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A problem in conduction of heat

Published online by Cambridge University Press:  24 October 2008

H. S. Carslaw
Affiliation:
The UniversitySydney, Australia
J. C. Jaeger
Affiliation:
The University of TasmaniaHobart, Australia

Extract

The problem of the conduction of heat in a solid sphere with a concentric core of a different material, the surface kept at a constant temperature, and the initial temperature of the whole zero, has already been solved in these Proceedings.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1939

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References

* Carslaw, , “The cooling of a solid sphere with a concentric core of a different material”, Proc. Cambridge Phil. Soc. 20 (1921), 399410.Google ScholarBromwich, , “Symbolical methods in conduction of heat”, Proc. Cambridge Phil. Soc. 20 (1921), 411–27.Google Scholar In the first of these papers contour integration is used; in the second Heaviside's operational calculus as developed by Bromwich.

Carslaw, , Math. Gaz. 22 (1938), 264–80.CrossRefGoogle ScholarCarslaw, and Jaeger, , Phil. Mag. (7), 26 (1938), 473.CrossRefGoogle ScholarCarslaw, and Jaeger, , Bull. American Math. Soc. (in the Press).Google Scholar Also the work of Doetsch quoted on p. 396 and papers by Churchill, Lowan and others.

Carslaw, , Conduction of heat, 2nd ed. (Macmillan, 1921), § 64.Google Scholar We quote this book below as C.H.

* We use this bar notation throughout for the Laplace transform. Thus

* See, for example, Doetsch, , Theorie und Anwendung der Laplace-Transformation (Berlin, 1937), p. 126, Satz 2.CrossRefGoogle ScholarChurchill, , Math. Z. 42 (1937), 569, Theorem 1.CrossRefGoogle Scholar

* Cf. C.H. § 106.

* If k < 1 the result is true for ξ ≥ 0, t > 0.

* C, C 1, … are used for different constants, and ρ0, ρ1, … for fixed values of ρ.